dolphin/Source/Core/VideoCommon/Src/PixelShaderGen.h

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#ifndef GCOGL_PIXELSHADER_H
#define GCOGL_PIXELSHADER_H
#include "VideoCommon.h"
#include "ShaderGenCommon.h"
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#include "BPMemory.h"
#define I_COLORS "color"
#define I_KCOLORS "k"
#define I_ALPHA "alphaRef"
#define I_TEXDIMS "texdim"
#define I_ZBIAS "czbias"
#define I_INDTEXSCALE "cindscale"
#define I_INDTEXMTX "cindmtx"
#define I_FOG "cfog"
#define I_PLIGHTS "cPLights"
#define I_PMATERIALS "cPmtrl"
#define C_COLORMATRIX 0 // 0
#define C_COLORS 0 // 0
#define C_KCOLORS (C_COLORS + 4) // 4
#define C_ALPHA (C_KCOLORS + 4) // 8
#define C_TEXDIMS (C_ALPHA + 1) // 9
#define C_ZBIAS (C_TEXDIMS + 8) //17
#define C_INDTEXSCALE (C_ZBIAS + 2) //19
#define C_INDTEXMTX (C_INDTEXSCALE + 2) //21
#define C_FOG (C_INDTEXMTX + 6) //27
#define C_PLIGHTS (C_FOG + 3)
#define C_PMATERIALS (C_PLIGHTS + 40)
#define C_PENVCONST_END (C_PMATERIALS + 4)
// Different ways to achieve rendering with destination alpha
enum DSTALPHA_MODE
{
DSTALPHA_NONE, // Render normally, without destination alpha
DSTALPHA_ALPHA_PASS, // Render normally first, then render again for alpha
DSTALPHA_DUAL_SOURCE_BLEND // Use dual-source blending
};
// Annoying sure, can be removed once we get up to GLSL ~1.3
const s_svar PSVar_Loc[] = { {I_COLORS, C_COLORS, 4 },
{I_KCOLORS, C_KCOLORS, 4 },
{I_ALPHA, C_ALPHA, 1 },
{I_TEXDIMS, C_TEXDIMS, 8 },
{I_ZBIAS , C_ZBIAS, 2 },
{I_INDTEXSCALE , C_INDTEXSCALE, 2 },
{I_INDTEXMTX, C_INDTEXMTX, 6 },
{I_FOG, C_FOG, 3 },
{I_PLIGHTS, C_PLIGHTS, 40 },
{I_PMATERIALS, C_PMATERIALS, 4 },
};
// TODO: Should compact packing be enabled?
//#pragma pack(4)
struct pixel_shader_uid_data
{
u32 components;
u32 dstAlphaMode : 2;
u32 Pretest : 2;
u32 genMode_numtexgens : 4;
u32 genMode_numtevstages : 4;
u32 genMode_numindstages : 3;
u32 nIndirectStagesUsed : 8;
u32 texMtxInfo_n_unknown : 8; // 8x1 bit
u32 texMtxInfo_n_projection : 8; // 8x1 bit
u32 texMtxInfo_n_inputform : 16; // 8x2 bits
u32 texMtxInfo_n_texgentype : 24; // 8x3 bits
u64 texMtxInfo_n_sourcerow : 40; // 8x5 bits
u32 texMtxInfo_n_embosssourceshift : 24; // 8x3 bits
u32 texMtxInfo_n_embosslightshift : 24; // 8x3 bits
u32 tevindref_bi0 : 3;
u32 tevindref_bc0 : 3;
u32 tevindref_bi1 : 3;
u32 tevindref_bc1 : 3;
u32 tevindref_bi2 : 3;
u32 tevindref_bc3 : 3;
u32 tevindref_bi4 : 3;
u32 tevindref_bc4 : 3;
inline void SetTevindrefValues(int index, u32 texcoord, u32 texmap)
{
if (index == 0) { tevindref_bc0 = texcoord; tevindref_bi0 = texmap; }
else if (index == 1) { tevindref_bc1 = texcoord; tevindref_bi1 = texmap; }
else if (index == 2) { tevindref_bc3 = texcoord; tevindref_bi2 = texmap; }
else if (index == 3) { tevindref_bc4 = texcoord; tevindref_bi4 = texmap; }
}
inline void SetTevindrefTexmap(int index, u32 texmap)
{
if (index == 0) { tevindref_bi0 = texmap; }
else if (index == 1) { tevindref_bi1 = texmap; }
else if (index == 2) { tevindref_bi2 = texmap; }
else if (index == 3) { tevindref_bi4 = texmap; }
}
u64 tevorders_n_texcoord : 48; // 16 x 3 bits
u64 tevind_n_sw : 48; // 16 x 3 bits
u64 tevind_n_tw : 48; // 16 x 3 bits
u32 tevind_n_fb_addprev : 16; // 16 x 1 bit
u32 tevind_n_bs : 32; // 16 x 2 bits
u32 tevind_n_fmt : 32; // 16 x 2 bits
u32 tevind_n_bt : 32; // 16 x 2 bits
u64 tevind_n_bias : 48; // 16 x 3 bits
u64 tevind_n_mid : 64; // 16 x 4 bits
// NOTE: These assume that the affected bits are zero before calling
void Set_tevind_sw(int index, u64 val)
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{
tevind_n_sw |= val << (3*index);
}
void Set_tevind_tw(int index, u64 val)
{
tevind_n_tw |= val << (3*index);
}
void Set_tevind_bias(int index, u64 val)
{
tevind_n_bias |= val << (3*index);
}
void Set_tevind_mid(int index, u64 val)
{
tevind_n_mid |= val << (4*index);
}
u32 tevksel_n_swap1 : 16; // 8x2 bits
u32 tevksel_n_swap2 : 16; // 8x2 bits
u64 tevksel_n_kcsel0 : 40; // 8x5 bits
u64 tevksel_n_kasel0 : 40; // 8x5 bits
u64 tevksel_n_kcsel1 : 40; // 8x5 bits
u64 tevksel_n_kasel1 : 40; // 8x5 bits
void set_tevksel_kcsel(int index, int i, u32 value) { if (i) tevksel_n_kcsel1 |= value << (5*index); else tevksel_n_kcsel0 |= value << (5*index); }
void set_tevksel_kasel(int index, int i, u32 value) { if( i) tevksel_n_kasel1 |= value << (5*index); else tevksel_n_kasel0 |= value << (5*index); }
u64 cc_n_d : 64; // 16x4 bits
u64 cc_n_c : 64; // 16x4 bits
u64 cc_n_b : 64; // 16x4 bits
u64 cc_n_a : 64; // 16x4 bits
u32 cc_n_bias : 32; // 16x2 bits
u32 cc_n_op : 16; // 16x1 bit
u32 cc_n_clamp : 16; // 16x1 bit
u32 cc_n_shift : 32; // 16x2 bits
u32 cc_n_dest : 32; // 16x2 bits
u32 ac_n_rswap : 32; // 16x2 bits
u32 ac_n_tswap : 32; // 16x2 bits
u64 ac_n_d : 48; // 16x3 bits
u64 ac_n_c : 48; // 16x3 bits
u64 ac_n_b : 48; // 16x3 bits
u64 ac_n_a : 48; // 16x3 bits
u32 ac_n_bias : 32; // 16x2 bits
u32 ac_n_op : 16; // 16x1 bit
u32 ac_n_clamp : 16; // 16x1 bit
u32 ac_n_shift : 32; // 16x2 bits
u32 ac_n_dest : 32; // 16x2 bits
u32 alpha_test_comp0 : 3;
u32 alpha_test_comp1 : 3;
u32 alpha_test_logic : 2;
u32 alpha_test_use_zcomploc_hack : 1;
u32 fog_proj : 1;
u32 fog_fsel : 3;
u32 fog_RangeBaseEnabled : 1;
u32 ztex_op : 2;
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u32 per_pixel_depth : 1;
u32 bHasIndStage : 16;
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u32 xfregs_numTexGen_numTexGens : 4;
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LightingUidData lighting;
};
//#pragma pack()
typedef ShaderUid<pixel_shader_uid_data> PixelShaderUid;
typedef ShaderCode PixelShaderCode; // TODO: Obsolete
typedef ShaderConstantProfile PixelShaderConstantProfile; // TODO: Obsolete
void GeneratePixelShaderCode(PixelShaderCode& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components);
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void GetPixelShaderUid(PixelShaderUid& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components);
void GetPixelShaderConstantProfile(PixelShaderConstantProfile& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components);
#endif // GCOGL_PIXELSHADER_H